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遥遥领先瑞萨抗冲击宽温有源晶振

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扫一扫!遥遥领先瑞萨抗冲击宽温有源晶振扫一扫!
浏览:- 发布日期:2023-09-23 10:10:37【
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遥遥领先瑞萨抗冲击宽温有源晶振,近年来,人工智能被用于各种应用,据说可以保护人们的安全,丰富他们的生活。瑞萨在2020年推出了RZ/V系列作为视觉人工智能的微处理器(MPU)。RZ/V系列一直备受好评,各种来源都有许多关于其高速人工智能推理和与端点人工智能匹配的低功耗性能的询问。在这篇博客中,我们想介绍一些我们的合作伙伴使用RZ/V系列的实施示例,以及提供安全性和舒适性的人工智能。

用人工智能密切保护人们

虽然对策已经到位,但是很难减少常见事故的数量,例如小孩摔倒、跌倒、被缝隙夹住等。我们的合作伙伴使用RZ/V系列开发并实现了更先进的姿态检测。其关键特性是高度精确地检测手腕、肘部和脚踝,使系统能够快速提醒用户注意事故,如从站立位置跌倒、进入有楼梯或台阶的区域,或者手或头被游乐场设备或门卡住等,以确保安全。而这些人工智能的应用都离不开有源晶体振荡器的支持,该系统可以在一个人把手放在楼梯上或踏上楼梯的瞬间检测到危险;而在以前,该系统只能在人完全爬上楼梯后检测到危险,因为它将人体识别为一个整体。

该解决方案还支持多人检测。当部署在医院或老年人护理机构时,单个摄像机可用于同时保护多个人。该系统可以预测涉及从床上跌落的事故,并估计一个人在房间里的位置以及他们的状况(站起、坐下或摔倒),从而减轻护理人员的负担。

预防工地事故

毫不夸张地说,在物流运输行业的仓库里,在叉车、自动导引车(AGV)等无人运输机器人四处移动的地方,在起重机、挖掘机等施工设备四处移动的工地里,危险总是在你身边。减少叉车与人接触的事故数量尤其困难,因此需要强有力的安全措施。我们的合作伙伴开发的独特的对象检测模型以及高精密的温度补偿晶振,在RZ/V系列上实施,具有高度准确性,执行高速推理,并具有使用单目摄像机的距离测量功能。换句话说,通过在这种车辆设备上结合具有这种AI模型的相机模块,可以加强周围的监控,特别是因为它可以实时测量与正在接近的人的距离。预计这将提高现场安全性并保持运营效率。

进一步的发展包括将安全监控领域从工作场所扩展到普通人行道,我们可以通过在自行车和踏板车上安装该系统来促进行人安全。

Mfr Part # Mfr Description Series Frequency Output Voltage - Supply Frequency Stability
XLH726025.002000I Renesas晶振 XTAL OSC XO 25.0020MHZ HCMOS SMD XPRESSO  FXO-HC72 25.002 MHz HCMOS 2.5V ±25ppm
XLH728025.000000X Renesas晶振 XTAL OSC XO 25.0000MHZ HCMOS SMD XPRESSO  FXO-HC72 25 MHz HCMOS 2.5V ±20ppm
XLH728020.000000X Renesas晶振 XTAL OSC XO 20.0000MHZ HCMOS SMD XPRESSO  FXO-HC72 20 MHz HCMOS 2.5V ±20ppm
XLH730200.000000I Renesas晶振 XTAL OSC XO 200.0000MHZ HCMOS XPRESSO  FXO-HC73 200 MHz HCMOS 3.3V ±100ppm
XLH735225.060000I Renesas晶振 XTAL OSC XO 225.0600MHZ HCMOS XPRESSO  FXO-HC73 225.06 MHz HCMOS 3.3V ±50ppm
XLH735156.250000I Renesas晶振 XTAL OSC XO 156.2500MHZ HCMOS XPRESSO  FXO-HC73 156.25 MHz HCMOS 3.3V ±50ppm
XLH735150.000000I Renesas晶振 XTAL OSC晶振 XO 150.0000MHZ HCMOS XPRESSO  FXO-HC73 150 MHz HCMOS 3.3V ±50ppm
XLH736150.000000X Renesas晶振 XTAL OSC XO 150.0000MHZ HCMOS XPRESSO  FXO-HC73 150 MHz HCMOS 3.3V ±25ppm
XLH736121.500000I Renesas晶振 XTAL OSC XO 121.5000MHZ HCMOS XPRESSO  FXO-HC73 121.5 MHz HCMOS 3.3V ±25ppm
XLH736108.000000I Renesas晶振 XTAL OSC XO 108.0000MHZ HCMOS XPRESSO  FXO-HC73 108 MHz HCMOS 3.3V ±25ppm
XLH736104.000000I Renesas晶振 XTAL OSC XO 104.0000MHZ HCMOS XPRESSO  FXO-HC73 104 MHz HCMOS 3.3V ±25ppm
XLH736102.400000I Renesas晶振 XTAL OSC XO 102.4000MHZ HCMOS XPRESSO  FXO-HC73 102.4 MHz HCMOS 3.3V ±25ppm
XLH736089.600000I Renesas晶振 XTAL OSC XO 89.6000MHZ HCMOS SMD XPRESSO  FXO-HC73 89.6 MHz HCMOS 3.3V ±25ppm
XLH736085.000000I Renesas晶振 XTAL OSC XO 85.0000MHZ HCMOS SMD XPRESSO  FXO-HC73 85 MHz HCMOS 3.3V ±25ppm
XLH736070.656000I Renesas晶振 XTAL OSC XO 70.6560MHZ HCMOS SMD XPRESSO  FXO-HC73 70.656 MHz HCMOS 3.3V ±25ppm
XLH736066.667000I Renesas晶振 XTAL OSC XO 66.6670MHZ HCMOS SMD XPRESSO  FXO-HC73 66.667 MHz HCMOS 3.3V ±25ppm
XLH530133.330000X Renesas晶振 XTAL OSC XO 133.3300MHZ HCMOS XL 133.33 MHz HCMOS 3.3V ±100ppm
XLH536072.000000X Renesas晶振 XTAL OSC XO 72.0000MHZ HCMOS SMD XL 72 MHz HCMOS 3.3V ±25ppm
XLH336033.330000X Renesas晶振 XTAL OSC XO 33.3300MHZ HCMOS SMD XL 33.33 MHz HCMOS 3.3V ±25ppm
XLH325100.000000I Renesas晶振 XTAL OSC XO 100.0000MHZ HCMOS XL 100 MHz HCMOS 2.5V ±50ppm
XLH335033.916000I Renesas晶振 XTAL OSC XO 33.9160MHZ HCMOS SMD XL 33.916 MHz HCMOS 3.3V ±50ppm
XLH326108.000000X Renesas晶振 XTAL OSC XO 108.0000MHZ HCMOS XL 108 MHz HCMOS 2.5V ±25ppm
XLH325074.250000I Renesas晶振 XTAL OSC XO 74.2500MHZ HCMOS SMD XL 74.25 MHz HCMOS 2.5V ±50ppm
XLH535004.915200I Renesas晶振 XTAL OSC XO 4.9152MHZ HCMOS SMD XL 4.9152 MHz HCMOS 3.3V ±50ppm
XLH736110.160000X Renesas晶振 XTAL OSC XO 110.1600MHZ HCMOS XL 110.16 MHz HCMOS 3.3V ±25ppm
XLH336012.288000X Renesas晶振 XTAL OSC XO 12.2880MHZ HCMOS SMD XL 12.288 MHz HCMOS 3.3V ±25ppm
XLH335077.777600I Renesas晶振 XTAL OSC XO 77.7776MHZ HCMOS SMD XL 77.7776 MHz HCMOS 3.3V ±50ppm
XLH336066.666700X Renesas晶振 XTAL OSC XO 66.6667MHZ HCMOS SMD XL 66.6667 MHz HCMOS 3.3V ±25ppm
XLH335076.068600I Renesas晶振 XTAL OSC XO 76.0686MHZ HCMOS SMD XL 76.0686 MHz HCMOS 3.3V ±50ppm
XLH736028.322000X Renesas晶振 XTAL OSC XO 28.3220MHZ HCMOS SMD XL 28.322 MHz HCMOS 3.3V ±25ppm
XLH730069.190900I Renesas晶振 XTAL OSC XO 69.1909MHZ HCMOS SMD XL 69.1909 MHz HCMOS 3.3V ±100ppm
XLH730042.400000I Renesas晶振 XTAL OSC XO 42.4000MHZ HCMOS SMD XL 42.4 MHz HCMOS 3.3V ±100ppm
XLH335089.000000I Renesas晶振 XTAL OSC XO 89.0000MHZ HCMOS SMD XL 89 MHz HCMOS 3.3V ±50ppm
XLH336100.000000X Renesas晶振 XTAL OSC XO 100.0000MHZ HCMOS XL 100 MHz HCMOS 3.3V ±25ppm
XLH735078.125000I Renesas晶振 XTAL OSC XO 78.1250MHZ HCMOS SMD XL 78.125 MHz HCMOS 3.3V ±50ppm
XLH730016.670000I Renesas晶振 XTAL OSC XO 16.6700MHZ HCMOS SMD XL 16.67 MHz HCMOS 3.3V ±100ppm
XLH725070.000000I Renesas晶振 XTAL OSC XO 70.0000MHZ HCMOS SMD XL 70 MHz HCMOS 2.5V ±50ppm
XLH735024.875000I Renesas晶振 XTAL OSC XO 24.8750MHZ HCMOS SMD XL 24.875 MHz HCMOS 3.3V ±50ppm
XLH736002.489060X Renesas晶振 XTAL OSC XO 2.48906MHZ HCMOS SMD XL 2.48906 MHz HCMOS 3.3V ±25ppm
XLH335108.000000I Renesas晶振 XTAL OSC XO 108.0000MHZ HCMOS XL 108 MHz HCMOS 3.3V ±50ppm
XLH335014.318000I Renesas晶振 XTAL OSC XO 14.3180MHZ HCMOS SMD XL 14.318 MHz HCMOS 3.3V ±50ppm
XLH535120.000000I Renesas晶振 XTAL OSC XO 120.0000MHZ HCMOS XL 120 MHz HCMOS 3.3V ±50ppm
XLH525074.250000I Renesas晶振 XTAL OSC XO 74.2500MHZ HCMOS SMD XL 74.25 MHz HCMOS 2.5V ±50ppm
XLH730135.000000X Renesas晶振 XTAL OSC XO 135.0000MHZ HCMOS XL 135 MHz HCMOS 3.3V ±100ppm
XLH736016.777216X Renesas晶振 XTAL OSC XO 16.777216MHZ HCMOS XL 16.777216 MHz HCMOS 3.3V ±25ppm
XLH335033.554400I Renesas晶振 XTAL OSC XO 33.5544MHZ HCMOS SMD XL 33.5544 MHz HCMOS 3.3V ±50ppm
XLH335019.200000I Renesas晶振 XTAL OSC XO 19.2000MHZ HCMOS SMD XL 19.2 MHz HCMOS 3.3V ±50ppm
XLH730027.073600I Renesas晶振 XTAL OSC XO 27.0736MHZ HCMOS SMD XL 27.0736 MHz HCMOS 3.3V ±100ppm
XLH735022.579200I Renesas晶振 XTAL OSC XO 22.5792MHZ HCMOS SMD XL 22.5792 MHz HCMOS 3.3V ±50ppm
XLH730027.580800I Renesas晶振 XTAL OSC XO 27.5808MHZ HCMOS SMD XL 27.5808 MHz HCMOS 3.3V ±100ppm
XLH336036.864000X Renesas晶振 XTAL OSC XO 36.8640MHZ HCMOS SMD XL 36.864 MHz HCMOS 3.3V ±25ppm
XLH730024.059520I Renesas晶振 XTAL OSC XO 24.05952MHZ HCMOS XL 24.05952 MHz HCMOS 3.3V ±100ppm
XLH730020.275200I Renesas晶振 XTAL OSC XO 20.2752MHZ HCMOS SMD XL 20.2752 MHz HCMOS 3.3V ±100ppm
XLH335121.500000I Renesas晶振 XTAL OSC XO 121.5000MHZ HCMOS XL 121.5 MHz HCMOS 3.3V ±50ppm
XLH536026.600000X Renesas晶振 XTAL OSC XO 26.6000MHZ HCMOS SMD XL 26.6 MHz HCMOS 3.3V ±25ppm
XLH735006.144000I Renesas晶振 XTAL OSC XO 6.1440MHZ HCMOS SMD XL 6.144 MHz HCMOS 3.3V ±50ppm
XLH735041.667000I Renesas晶振 XTAL OSC XO 41.6670MHZ HCMOS SMD XL 41.667 MHz HCMOS 3.3V ±50ppm
XLH535101.000000I Renesas晶振 XTAL OSC XO 101.0000MHZ HCMOS XL 101 MHz HCMOS 3.3V ±50ppm
XLH335024.545400I Renesas晶振 XTAL OSC XO 24.5454MHZ HCMOS SMD XL 24.5454 MHz HCMOS 3.3V ±50ppm
XLH725066.666000I Renesas晶振 XTAL OSC XO 66.6660MHZ HCMOS SMD XL 66.666 MHz HCMOS 2.5V ±50ppm
XLH736004.112000X Renesas晶振 XTAL OSC XO 4.1120MHZ HCMOS SMD XL 4.112 MHz HCMOS 3.3V ±25ppm
XLH730044.236800I Renesas晶振 XTAL OSC XO 44.2368MHZ HCMOS SMD XL 44.2368 MHz HCMOS 3.3V ±100ppm
XLH535022.579200I Renesas晶振 XTAL OSC XO 22.5792MHZ HCMOS SMD XL 22.5792 MHz HCMOS 3.3V ±50ppm
XLH536005.560000X Renesas晶振 XTAL OSC XO 5.5600MHZ HCMOS SMD XL 5.56 MHz HCMOS 3.3V ±25ppm
XLH730009.216000I Renesas晶振 XTAL OSC XO 9.2160MHZ HCMOS SMD XL 9.216 MHz HCMOS 3.3V ±100ppm
XLH736024.576000X Renesas晶振 XTAL OSC XO 24.5760MHZ HCMOS SMD XL 24.576 MHz HCMOS 3.3V ±25ppm
XLH326051.975000X Renesas晶振 XTAL OSC XO 51.9750MHZ HCMOS SMD XL 51.975 MHz HCMOS 2.5V ±25ppm
XLH335090.000000I Renesas晶振 XTAL OSC XO 90.0000MHZ HCMOS SMD XL 90 MHz HCMOS 3.3V ±50ppm
XLH335026.194140I Renesas晶振 XTAL OSC XO 26.19414MHZ HCMOS XL 26.19414 MHz HCMOS 3.3V ±50ppm
XLH535025.175000I Renesas晶振 XTAL OSC XO 25.1750MHZ HCMOS SMD XL 25.175 MHz HCMOS 3.3V ±50ppm
XLH530003.570000I Renesas晶振 XTAL OSC XO 3.5700MHZ HCMOS SMD XL 3.57 MHz HCMOS 3.3V ±100ppm
XLH335040.700000I Renesas晶振 XTAL OSC XO 40.7000MHZ HCMOS SMD XL 40.7 MHz HCMOS 3.3V ±50ppm
XLH325002.000000I Renesas晶振 XTAL OSC XO 2.0000MHZ HCMOS SMD XL 2 MHz HCMOS 2.5V ±50ppm
XLH335159.299840X Renesas晶振 XTAL OSC XO 159.29984MHZ HCMOS XL 159.29984 MHz HCMOS 3.3V ±50ppm
XLH535009.175000I Renesas晶振 XTAL OSC XO 9.1750MHZ HCMOS SMD XL 9.175 MHz HCMOS 3.3V ±50ppm
XLH335017.500000I Renesas晶振 XTAL OSC XO 17.5000MHZ HCMOS SMD XL 17.5 MHz HCMOS 3.3V ±50ppm
XLH525044.230769I Renesas晶振 XTAL OSC XO 44.230769MHZ HCMOS XL 44.230769 MHz HCMOS 2.5V ±50ppm
XLH336002.489060X Renesas晶振 XTAL OSC XO 2.48906MHZ HCMOS SMD XL 2.48906 MHz HCMOS 3.3V ±25ppm
XLH735022.400000I Renesas晶振 XTAL OSC XO 22.4000MHZ HCMOS SMD XL 22.4 MHz HCMOS 3.3V ±50ppm
XLH736022.118400X Renesas晶振 XTAL OSC XO 22.1184MHZ HCMOS SMD XL 22.1184 MHz HCMOS 3.3V ±25ppm
XLH730028.450560I Renesas晶振 XTAL OSC XO 28.45056MHZ HCMOS XL 28.45056 MHz HCMOS 3.3V ±100ppm
XLH735027.120000I Renesas晶振 XTAL OSC XO 27.1200MHZ HCMOS SMD XL 27.12 MHz HCMOS 3.3V ±50ppm
XLH525100.000000I Renesas晶振 XTAL OSC XO 100.0000MHZ HCMOS XL 100 MHz HCMOS 2.5V ±50ppm
XLH536066.666000X Renesas晶振 XTAL OSC XO 66.6660MHZ HCMOS SMD XL 66.666 MHz HCMOS 3.3V ±25ppm
支持更好的生活

轻量级、超快速的AI模型实现了10人检测、18个关节计数和30FPS,是姿势检测实现更好生活的另一个实施示例。由于健康意识的增强,近年来对健身计划的需求一直在增加,而对于高品质的石英晶体振荡器需求也在不断增加。如果将该系统应用于舞蹈和工作室课程等。它可以通过将参与者与教练进行比较来立即纠正参与者的核心和姿势,从而带来显著的健身益处以及损伤预防。除了姿势矫正之外,由于新冠肺炎而难以处理的身体距离(参与者之间的距离)现在也可以轻松确保,让您安心。此外,通过向称为“十字路口”的特定区域添加数量计数,它可以检测是否有人进入特定区域,从而允许AI管理进入工作室的人数,从而减轻操作管理的负担。遥遥领先瑞萨抗冲击宽温有源晶振.

AI is used for a variety of applications and is said to safeguard people and enrich their lives in recent years. Renesas launched the RZ/V series as microprocessors (MPUs) for Vision AI in 2020. The RZ/V series has been highly acclaimed and there have been many inquiries from various sources regarding its high-speed AI inference and low consumption performance that match endpoint AI. In this blog, we would like to introduce some implementation examples by our partners using the RZ/V series, and AI that provides safety and comfort.

Safeguarding People Closely with AI

Although countermeasures are in place, it has been difficult to reduce the number of familiar accidents such as small children falling over, falling down, getting caught in gaps, etc. Our partner has developed and implemented more advanced pose detection using the RZ/V series. The key feature is highly accurate detection at the level of the wrist, elbow, and ankle, enabling the system to quickly alert users to accidents such as falling from a standing position, entering an area with stairs or steps, or getting one's hand or head caught in playground equipment or doors, etc to ensure safety. This system can detect danger right at the moment when a person puts his or her hand or steps on a staircase; whereas previously, the system could only detect danger after the person had completely climbed the staircase because it recognized the human body as a single mass.

This solution also supports multiple-person detection. A single camera can be used to safeguard multiple people simultaneously when deployed in hospitals or elderly care facilities. The system can predict accidents involving falls from beds and estimate where a person is in the room as well as their condition (standing up, sitting down or falling over), thus reducing the burden on caregivers.

Guarding Against Worksite Accidents

It is no exaggeration to say that danger is always next to you in the warehouses of logistics and transportation industries, where unmanned transport robots such as forklifts and (Automated Guided Vehicles (AGVs) move around, and in construction sites where construction equipment such as cranes and excavators move around. It is particularly difficult to reduce the number of accidents involving forklifts making contact with people, therefore strong safety measures are needed. The unique object detection model developed by our partner, implemented on the RZ/V series, is highly accurate, performs high-speed inference, and has a distance measurement function using a monocular camera. In other words, it is possible to strengthen surrounding monitoring by incorporating a camera module with this AI model on such vehicle equipment, especially since it can measure the distance to approaching people in real time. This is expected to enhance safety on site as well as maintain operational efficiency.

Further development includes expanding the area of safety monitoring from work sites to general sidewalks, and we could contribute to pedestrian safety by installing the system on bicycles and kick scooters.

Support Better Living

The lightweight, ultra-fast AI model achieving 10-person detection, 18 joint counts and 30 FPS is another implementation example of pose detection for better living. The demand for fitness programs has been increasing in recent years due to growing health consciousness. If this system is applied to dance and studio lessons, etc., it could instantly correct the participant's core and posture by comparing the participant with the instructor, resulting in significant fitness benefits as well as injury prevention. In addition to posture correction, physical distancing (distance between participants) that has been difficult to deal with due to COVID-19 can now be easily ensured, providing peace of mind. Furthermore, by adding a number count to specific areas termed as “line cross,” it could detect whether a person had entered a specific area allowing AI to manage the number of people entering the studio, thereby reducing the burden on the operation management.

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